Recharging of Battery Electric Vehicles on a Smart Electrical Grid System

1. A method for recharging a number of battery electric vehicles, the method comprising: receiving, by a control module configured to control an electrical grid system that include a number of recharging stations that are configured to recharge the number of battery electric vehicles, from the number of battery electric vehicles that are to recharge at a number of recharging stations of the electrical grid system from an electrical supply provided by a power generator coupled to the electrical grid system, usage data that comprises a current charge level, a current location, and a planned itinerary that includes a destination; determining, by the control module, anticipated electrical loads at the number of recharging stations of the electrical grid system based on the usage data of the number of battery electric vehicles; denying, in response to receiving a communication including the anticipated electrical loads, access to at least one recharging station of the number of recharging stations by at least one battery electric vehicle of the number of battery electric vehicles in a number of sectors of the electrical grid system; and transmitting to the at least one battery electric vehicle of the number of battery electric vehicles, a recommended recharging station among the number of recharging stations for actual usage by the at least one battery electric vehicle, wherein the recommended recharging station has more recharge capacity than the recharging station that is closest to the current location of the at least one battery electric vehicle; receiving, through a network communication, an electronic token from at least one of a mobile device of a driver of at least one battery electric vehicle of the number of battery electric vehicles and a device associated with the at least one battery electric vehicle; and responsive to receiving the electronic token, reserving a reserved spot at the recommended recharging station to recharge the at least one battery electric vehicle, wherein reservation of the spot is for a guaranteed time period based on a monetary value of the electronic token and is unrestricted with regard to a recharging station of the number of recharging stations where the reserved spot is located and is unrestricted with regard to a time and a day.

2. The method of claim 1 , further comprising dynamically varying charge rates for recharging at the number of recharging stations based on the anticipated electrical loads, wherein the charge rates are variable across the number of recharging stations.

3. The method of claim 2 , further comprising: determining, by the control module, an anticipated charge rate for recharging at the number of recharging stations for at least one battery electric vehicle of the number of battery electric vehicles for the planned itinerary for the at least one battery electric vehicle, wherein the anticipated charge rate is based on the charge rates being dynamically varied based on the anticipated electrical loads; and transmitting the anticipated charge rate to at least one of a device of the at least one battery electric vehicle and a mobile device associated with an operator of the at least one battery electric vehicle.

4. The method of claim 1 , further comprising redistributing the electrical supply on the electrical grid system to at least one recharging station of the number of recharging stations based on the anticipated electrical loads, prior to actual usage defined by the usage data by the number of battery electric vehicles.

5. The method of claim 1 , wherein the recommended recharging station provided by the control module is based on an environmental condition that comprises at least one of traffic, geographical terrain, and weather.

6. The method of claim 1 , further comprising determining the recommended recharging station based, at least in part, on at least one of cost, recharge time, and environmental impact, wherein actual usage of the recommended recharging station by the at least one battery electric vehicle provides a more even distribution of the anticipated electrical loads on the electrical grid system than actual usage of the recharging station that is closest to the current location.

7. A computer program product for recharging a number of battery electric vehicles, the computer program product comprising: a non-transitory computer readable storage medium having computer usable program code embodied therewith, the computer usable program code comprising a computer usable program code configured to: receive from the number of battery electric vehicles that are to recharge at a number of recharging stations of an electrical grid system from an electrical supply provided by a power generator coupled to the electrical grid system, usage data that comprises a current charge level, a current location, and a planned itinerary that includes a destination; determine anticipated electrical loads at the number of recharging stations of the electrical grid system based on the usage data of the number of battery electric vehicles; deny, in response to receiving a communication including the anticipated electrical loads, access to at least one recharging station of the number of recharging stations by at least one battery electric vehicle of the number of battery electric vehicles in a number of sectors of the electrical grid system; and transmit to the at least one battery electric vehicle of the number of battery electric vehicles, a recommended recharging station among the number of recharging stations for actual usage by the at least one battery electric vehicle, wherein the recommended recharging station has more recharge capacity than the recharging station that is closest to the current location of the at least one battery electric vehicle; receive, through a network communication, an electronic token from at least one of a mobile device of a driver of at least one battery electric vehicle of the number of battery electric vehicles and a device associated with the at least one battery electric vehicle; and responsive to receipt of the electronic token, reserve a reserved spot at the recommended recharging station to recharge the at least one battery electric vehicle, wherein reservation of the spot is for a guaranteed time period based on a monetary value of the electronic token and is unrestricted with regard to a recharging station of the number of recharging stations where the reserved spot is located and is unrestricted with regard to a time and a day.

8. The computer program product of claim 7 , wherein the computer usable program code is configured to dynamically vary charge rates for recharging at the number of recharging stations based on the anticipated electrical loads of the electrical grid system, wherein the charge rates are variable across the number of recharging stations.

9. The computer program product of claim 8 , wherein the computer usable program code is configured to: determine an anticipated charge rate for recharging at the number of recharging stations for at least one battery electric vehicle of the number of battery electric vehicles for the planned itinerary for the at least one battery electric vehicle, wherein the anticipated charge rate is based on the charge rates being dynamically varied based on the anticipated electrical loads; and transmit the anticipated charge rate to at least one of a device of the at least one battery electric vehicle and a mobile device associated with a driver of the at least one battery electric vehicle.

10. The computer program product of claim 7 , wherein the computer usable program code is configured to redistribute the electrical supply on the electrical grid system to at least one recharging station of the number of recharging stations based on the anticipated electrical loads, prior to actual usage defined by the usage data by the number of battery electric vehicles.

11. The computer program product of claim 7 , wherein the recommended recharging station creates a more even distribution of the anticipated electrical loads on the electrical grid system in comparison to actual usage of the recharging station that is closest to the current location of the at least one battery electric vehicle.

12. The computer program product of claim 7 , wherein the recommended recharging station is based on an environmental condition that comprises at least one of traffic, geographical terrain, and weather.

13. The computer program product of claim 7 , wherein recommendation of the recommended recharging station is derived from at least one of cost, recharge time, and environmental impact, wherein actual usage of the recommended recharging station by the at least one battery electric vehicle provides a more even distribution of the anticipated electrical loads on the electrical grid system than actual usage of the recharging station that is closest to the current location.

14. An apparatus for recharging battery electric vehicles, the apparatus comprising: a processor; and a control module executable on the processor, the control module configured to: receive from the number of battery electric vehicles that are to recharge at a number of recharging stations of an electrical grid system from an electrical supply provided by a power generator coupled to the electrical grid system, usage data that comprises a current charge level, a current location, and a planned itinerary that includes a destination; determine anticipated electrical loads at the number of recharging stations of the electrical grid system based on the usage data of the number of battery electric vehicles; deny, in response to receiving a communication including the anticipated electrical loads, access to at least one recharging station of the number of recharging stations by at least one battery electric vehicle of the number of battery electric vehicles in a number of sectors of the electrical grid system; and transmit to the at least one battery electric vehicle of the number of battery electric vehicles, a recommended recharging station among the number of recharging stations for actual usage by the at least one battery electric vehicle, wherein the recommended recharging station has more recharge capacity than the recharging station that is closest to the current location of the at least one battery electric vehicle; receive, through a network communication, an electronic token from at least one of a mobile device of a driver of at least one battery electric vehicle of the number of battery electric vehicles and a device associated with the at least one battery electric vehicle; and responsive to receipt of the electronic token, reserve a reserved spot at the recommended recharging station to recharge the at least one battery electric vehicle, wherein reservation of the spot is for a guaranteed time period based on a monetary value of the electronic token and is unrestricted with regard to a recharging station of the number of recharging stations where the reserved spot is located and is unrestricted with regard to a time and a day.

15. The apparatus of claim 14 , wherein the control module is configured to redistribute the electrical supply on the electrical grid system to at least one recharging station of the number of recharging stations based on the anticipated electrical loads, prior to actual usage defined by the usage data by the number of battery electric vehicles.

16. The apparatus of claim 14 , wherein the recommended recharging station is based on an environmental condition that comprises at least one of traffic, geographical terrain, and weather.

17. The apparatus of claim 14 , wherein recommendation of the recommended recharging station is derived from at least one of cost, recharge time, and environmental impact, wherein actual usage of the recommended recharging station by the at least one battery electric vehicle provides a more even distribution of the anticipated electrical loads on the electrical grid system than actual usage of the recharging station that is closest to the current location.